Plate-fulcrum railroad track scale



Aug'. 7, 1934.

A. BOUSFIELD PLATE FULCRUM RAILROAD TRACK SCALE Filed Aug. '7, 1929 4 Sheets-Sheet l ATTORNEY Aug. 7, 1934o An BOUSFIELD 1,968,988

PLATE FULCRUM RAILROAD TRACK SCALE Filed Aug. 7, 1929 4 Sheets-Sheet 2 9' S5 gz ALFRED BousFyELD Fig. E

Aug. 7, 1934. A. BousFu-:LD

PLATE FULCRUM RAILROAD TRACK SCALE Filed Aug. 7. 1929 4 Sheets-Sheet 3 INVENTOR ALFRED BOUSHELD ATTORNEY Aug. 7, 1934B A. BOUSFIELD 1,968,988

PLATE FULCRUM RAILROAD TRACK SCALE Filed Aug. 7, 1929 4 sheetsmsheet 4 no H0 no@ 55 55 '09 Illllll Ilm 95m 95 F 1g. E

89/ @j lNvENToR ALFRED Bousmam ATTORN EY '-40- section,oi` the track .scal

Patented Aug. 7, 1934 v n 11;9'68l988 4 PLATE- FULGBUMBAILRQAD ,TRACK fsoALE Alfred 4Bousfieldy St. V.Iohisbux'y, Wt., `assigner -Ato E. and fT. Fairbanks and'fGompany, St'. Johnsbury, Vt., acorporationlof Nermont i Applicata@ :August 7, 1929', serial 10.384357 -zofoi'aima (01.26541) 'This "invention-relates Vto improvements :in weighing scales :and'm'ore particularly to heavy .duty'scales in which the load is transmittedffrom the :platformito the levers -andfrom the VAlatter to -5 the Weight offsetting means through the Vmedium of-fpla'te'-'fu'lcrumsA While myinvention may be incorporated inweighin'g scales used 'for many di'ierent purposes,` itV is generally employed in railroad track -scales and' yaccordingly' I'have shown 'my 'invention lapl'alied to -a weighing scale of .this lkind, it -being understood that `it is by no means limited to-scales of thistype.l

An important object A'of -this 'invention' is Fthe provision'of'ascale ofthe class described characterized-byits simplicity of' construction,'inex pensiveness -of manufacture "and treliability 'and accuracy under all-conditions-of service. Another vv object of this invention is jtlrefprovision `of an 'improved railroad track'scale 'embodying plate-fulcrums for transmitting load stresses through the levers `in Vwhich greater flexibility 'is obtained and torsional strains in the Yscale levers avoided Iby means-of improved 'connections between the levers. n

Another object of vthe iinvention `is Ato provide an improvedtr'ack Isoa-1e 'embodying platefulcrums ifor transmitting 'load stresses :andimeans for supportingthescaleilevers'to assure them'ainfAV tenance 'thereof in 4accurate operative alignment under all conditions. i

"Another object of this 'invention isto provide improved means Ifor supporting` `the approach rails leading tothe scale. t j :Other objects of this invention, together with certain details of construction and combinations 'oi-parts, 'will be 'describedin 'the specification fand pointed out in the 'appended-claims.

Figure l is ja longitudinal elevation, Hpartly in Figure '2 vis 'a cross-sectional view 'taken online 2-'2 :in Figure l showing 4the `connection:between thfe longitudinal transverse levers and therma'in levers; n t, Y I

Figure"'2A .islan elevational view showing the lpivotal connection ofthe .lateralexure plates to .the weighbridge and side walls ofthe gpm; Y

Figure 3 isla fragmentary side-elevational .View

:59 pn Aan enlarged vscale of .thefsuspension meansand honnections cbetween the y:longitudinal extension :levers and the main levers; l :Figure 41s .a cross-sectional view taken substantial1yonline544 I:in Figure :3; j

Figure 5 is a cross-sectional view itakennn `line to `1 each other 'by bar-s' '26 fixed ton-'said blocks 5-'5 :inJEigure 1,:showingzthe approach .rail and ydeckzsupport construction;

Figure :isf-a side'elevational view of :thetransfverse extensionlevershowing the Ameans :for pre'- -ventingsidewi'se :movement .of :the connection; 60

IFigure TI is :ans-elevational `view taken on line 1?' 47 in Eig'ure 6. showing :the connection between ',the transverse'vand :the longitudinal 4`extension levers; Y 1

ilFigure' is a detailfsectional Vview ,takenron line 8-8rin.Figure"-7'; and L -Figure 59T isa :detaill sectional viewvtaken on. line 99in Figure-'7. Similar.characters:of referencel indicate corresponding parts .throughout f'thefseveral views of the drawings. In the lillustrative embodimentfof 'fthe invention thereis shown the masonry .wall of the scale pit :generally V4indicated by 'the =reference numeral 10, towhichfarezsuitably boltedlthebase'plates 111 and vI2 heaivi'lyfreinforced so Las. to transmit'the load evenly iov'e'r'the foundation. Each of the 'base iplates llenas-secured thereto, preferably bybolts .13,itlie l"fulcrum:stands lll-and 15 ,and to the base Vplate-121s securelyfas'tened the u'lcrum: stand 1-6. "TheV fiulcru'm :stands '14 carry the fmain llevers 17,; which :are ffulcrumed thereon by plate-fulcrum's, Aor "flexure `plates '18, fthe yenlarged rectangular ends of lwhichare 'irm'ly held `in their seats in the 'stanclsfand leversby means fof cap ,screws 19. Th'eloadis transmited to Ythemain levers 17 from loading blocks '21`throug'h plate-"fulcrum or exure 1p1-etes 122; One `'ofthe enlarged substantially :rectangular ends of fthe plates 22 is securediin its seat iin the Vblock '21 =by :means of cap :screws "23 aand the other `'end of the '-plate is held'in its seat in Athe Emain'leve'r 17 'by -a wedge-shaped rclamping"merriber 224' retained in 'position fhy'oa'pr screws '25. The loading' Ablocks `21 ia`re 1prevented from tipping by being secured by'cap 'screws T2177. y

suitably mountedon vthe loading iblocks 2111are the ygir'der chairsA 28', which support the 1weighb'ridge29, constructed of two sh-belly typergird- 100 ersA 3l tietltogether vand *braced by any suitable means,v =su'ch :as `transverse reinforcing members 31a,V examples :of which are well-known in 'the art. Securely boltedto the girders 3l iin 'spaced relation yto Veach other .are opposed irail .stands 105 32,6towvhichfare fastened' the live lrails I33. The rail fstands IL32 ,carrying the live rails project through' the deck .34 of .the scalezpit '.andrin'order to prevent foreign matter, such l as rain, dirt `and the like, from v'entering"thegip'it,:weather lshields 110 the checked against lateral movement at that end.

The nexure plate 36 has adjacent to its end a reduced transverse ilexible portion 36a, which is adapted to flex under load stresses, the .outer end being ixedly secured along its'entire-transverse edge by a series of bolts 36h fastened to a bracket 37, which is anchored bybolts 37a, in the end wall of the scale pit.

The transverse checking of the girdersl is effected through the medium of laterally extending flexure plates 38,l which are located near. the opposite end of the weigh-bridge 29 and are pro.- videdadjacent to each end with a reducedtransverse ilexible portion 38a, adapted to flexunder load stresses. The ilexure plates 38 are pivotally mounted on pins 39 in the brackets v41 yand 42, which are rigidly secured to the girders 31 and Side walls of the pit, respectively (Figs. 2 and 2a) This latter construction is provided to per: mit the transverse'check-plates 38` to .turn upon the pins 39 when the weigh-bridge expands or contracts with temperature changes. ,In the center of each of the girders 31 is locatedfalreinforcing plate 3119, one of whichis provided with a` rectangular opening 31e, (Fig. 1) for a purpose of which will be subsequently described.rv

The load is transmitted from the main levers 17 to the longitudinal extension levers 43.and the means for accomplishing the same is shown particularly in Figures 3 and 4. The-extension levers themselves are covered by my divisional application, led May 25, 1931,` resulting in Patent No. 1,940,577, Lever for track scales,- issued Dec. 19, 1933. As illustrated in Figures 3 and 4. the tip 44 of each main lever has secured thereto by bolts 45 a connecting plate-fulcrumor ilexure plate 46, which is fastened by bolts 47 to an upwardly extending, elongated attachment member 48 integral with each one ofa pair of spaced lower yokes 49. Each `of the lower yokes 49 is slidably and adjustably mounted on the'lower eX- tremitiesof a pair of depending spaced tension rods 51, which are threaded to receive nuts 52,

'whereby the lower yokes 49 may be moved along the tension rods 51 and adjusted to theproper position to'receive equally the load forcestransmittedfrom the main levers 17'. The tension -rods 51 pass through lapertures 53 in thel,anges of the longitudinal extension levers 43 and apertures A54 formed in laterally extending shelves 55formed oflangle-irons, which are rivetedtoY the web portion of the levers 43, and are provided with a central supporting plate 55a. The upperextremities of the tension rods'51 are carried by upper yokes56. A bearing oranchor block 57 extends through an aperture 58 formed in the lever 43 and is mounted in Athe opposedA v.yokes 56 transversely thereof, being retained in position by cap screws 59. YCap screws 61- secure the upper end of a load carrying plate-fulcrum or flexure plate 62 to the bearing block 57the'z lexure plate being at right angles, to the. exure plates 46. The lower end of the vfle'xure plate 62 is secured-by cap screws 63 yto a ubearing oranchor ,block 64, extending through the aperture 58 and parallel to the bearing block 57, the block 64 being rigidly secured by cap screws 65 to the shelves 55, both of which form a support therefor. Each of the upper yokes 56 is provided with an arched portion 56a centrally disposed with relation to the vertical plane of the plate-fulcrum 62 attached to the yokes 56 and providing under stress lreinforcement and protection to the plate-fulcrum 62 at the exing point.

` By 'the construction described it will thus be seen that the load stresses are transmitted in the planes of movement of the main levers 17 and the longitudinal extension levers 43 and substantially in aline coincident with the intersection of vthe center planes of movement of these levers,

thllS, kavoiding torsional strains and making for greater flexibility in the movement of the levers. Each of the longitudinal extension levers 43 is fulcrumed on the stand 15 (Figs. 3 and 4) by meansl of a plate-fulcrum or ilexure plate 66, .which extends transverselythrough anaperture 67; formed in the' butt end of vthe lever, the upper extremityof the plate being bolted to a, bearing oranchor block 68 Vrigidly secured by cap screws 69 to apair of angle plates or shelves 70 riveted to opposite faces ofthe lever and the lower end being attached to an anchor block 71 preferably bolted to the stand 15by bolts 72. Apertures 73 are formed in the upper flanges of the lever 43 Vto aid in the,V assembly of the scale parts. l

Theload .stresses are; transmitted from the longitudinal extension levers 43 to the transverse extension. lever 74 by a, lever suspension arrangement shown particularly in Figures '1, 6 and 7. Tothe tips of the longitudinal extension levers 43` are bolted by bolts 75, angle-irons 76, (Fig. 7) upon which are supportedthe nose-irons 77pmountedfor longitudinal adjustment at 78, the construction of which is fully described vin myUco-pending divisional application Ser. No. 523,805, .Adjustable nose irons for track scales, ledMarch 19, 1931. The nose irons 77 have `fixed thereto, by means of bolts 79, opposed fulcrum-plates 81, which are fastened Ato spaced lower bearing blocks 82 supported by means of spaced tension rods 83 from an upper bearing block 84 transversely mounted on the transverse lever 74. These tension rods 83 extend through an opening .74al (Figs. 1 and 7) in the butt end of the transverse lever 74' and are pivotally connected `to the upper bearing block 84 and lower bearing blocks 82 by means of pivot pins 83a and 83h inserted through the ends of the tension rods 83 and upper andA lower U-shaped mounting blocks 84a and 82afsecured respectively to the pivoted tension rods 83 are permitted to automatically yield under stress. Cross-webs 74h and 74cenclose the upper and lower ends of the opening 74av and serve to reinforce the lever at those points. Thus by employing the pivotal mounting of the tension rods 83 as described torsional strains are avoided and the plate-fulcrums 81 are protectedfrom injury. Further, by this particular arrangement, which constitutes an important and desirable feature of the invention, the nose irons 77 in their downward pull cooperate with the bearing block 84 on the transverse lever 74 through the medium of the dependingrods 83, so that the nose' irons operatively move with the transverse lever in the track scales in the art employing plate-fulcrum nose iron connections.

z guiar in cross-section,

. the transverse extension lever Vyard and vweigl'it-oifsetting means are provided.

:momes 3 .Attached ato the :bearing blocks =82rnreferablyibv .bolts 8511s :a platen member 86 having integral therewith a projection 87 extending longitudinally rof the platen 86 andysubst-antially rectan- 4asfis shown in Figure 18. The :projection Ais adapted to nt and be movable l,wit-hin ,a `groove 88 formedV in fthe upper ,surface .of astay plate holding T mernber 89, .to which is attached by fpins f91, one vend .of :a iiexure stay plate 92. The other =,end-,of the-stay plateis'se- .cured by bolts 93 v.to a bracket p94 -xed .in :any ,suitablemanner -to the fulcrum sta-nd T16. 'Cap screws 95 pass `through elongated `holes vorslots v96 formed fin fthe stay plate *.92 and holding member 89 and lenter screw-threaded -holes 97 inthe projection 87. To the transversely mounted upper bearing block 84 (Figs. 1 fand 6) -is Vrlxedby .any `-suitable means the `upper extremity of a plate-fulcrum or load flexure plate A98, the lower extremity of which -is attached to a l'transversely ,disposed bear-ing .block 99 (Fig. 7) secured to a cross-bar 100, Yextending across the opening ,74a in :the transverse rextension -lever 74, A,preferably by cap screws 101, the /plate-fulcrum V9.8 being thereby transversely mounted on the transverse extension lever 74. .'I'herconstruction above outlined lenables the iulcrum-plates 81 and 98 .to be maintained `in their vertical position Ashould it ever vbe lnecessary -to .move the longitudinal .ex-

j tension llever nose irons 77. 'To-allow this ladjustment, the cap screws 95 :are loosened, the platen member 86 is moved relative to the holdingmember 89, which is held in position bythe stay vplate 92, .and then the screws-are tightened again, thus retaining the parts in 4adjusted position. ,It will be understood that byu the projection `and.,gro0ve construction ofthe platen 86 andholding linem-- ber 89 .the cap screws l95 will-be lrelieved of .any thrust'which may be set .up anda ,construction of .greater durability is obtained. Thestayfplate construction ,permits of vertical motion -.to the connection Ybetween `-the longitudinal 4extension levers 43 ,and Ythe transverse extension lever j74 but prevents ,any motion in ya Ahorizor-ital-plane.

AThetransverse .extension lever 74 is Yfulcrumed on the .stand .16 by vmeans voa plate-fulcrum or flexure plate 102 suitably 4connected to .the fstand and the butt end Yof the lever. 4.Suitable connections between .the tip fend Ao 7.4 and .the steel- As shown in Figure 6, the .connecting .means includes a nose iron 103 .adjustably mounted-:on the under surface Aof the lever 74 and a plate- .fulcrum or flexure lplate 105 xed to ,the-:nose

iron transversely thereof and .to a block 1-06 carried by zthe `beam rods '107, which ,are connected to .the beam outiit `(not showin) as ,is well understood ,in ythe art. The transverse extension lever 74 extends outwardly -from the suspension :bearings of the :nose-irons'll of the longitudinales;-

tension levers 43, through the rectangular opening 31o in the reinforcing plate e317), in whichit moves, and is vconnected to the beam rods .107, ras

previously described .and shown ,in vFigures 1 and :6.

For the purpose of facilitating the Ainstallation and inspectionof the scale, the weighbridge 29 is,

spaced from 4the end walls vof the scale -pit vand `to ,bridge these spaces an :approach-construction is-provided, as is shown 1in Figures 1 and 5. approach construction includes adiaphragrn@genFV erally indicated by the reference numeral 108 which .supports .the rail stands 109 'carrying the approach :rails A110 :and :pedestals 1111, which :sus-

itain thescale deckindependentof the approach rails 1.10 and .are mounted Aon pedestal .supports 1.12. iattachedito the wall vCrithe pit. '.The :danhriaem 10.8 .comprsesf't-he -transverse1fbeams 111.113 and iis ireinorcedby. .a :plate and; channel-iron construction .fl-.14, `which lis preferably :riveted I:to ithe1-Ifbeams intermediate their ends. The $.11- ;beams fllare securedyby bolts 11311. .to beamf'sup-fports ,1;15, which :are securely fastened Eto ithe wall o itthe pithyexpansioneboltse. '.The dia..- ,phraem :108 ,is-rigidly anchored to the :end Mall of ,the `scale ;pit by La :bracket member vgenerally indicated by the .reference numeral 116 `and ssem'ed byibo'lts 11"7. .l

It will `be understood that ithe. :suspension .of the vmain levers 1'7 below the ,longitudinal extension levers 43 makes for `greater constancy iin scale performance and lessens the opportunities for inaccuracies 'to work in.

Having thus described "my V ;invention, what :I claim asnevv and desire to secure by Letters Patent of the United lStates is: 1

VA1. In .a scale 'of the class described, "the-.combination Vwith complementary main levers, of 1an extension lever adapted gto be operated thereby, land -means for suspending the Asaidxmain `levers from ethezsaid :extension V lever including ,a blond carrying plateefulcrum `transversely irnountedjn the said :extension lever,l `rand'suspension rmeans comprising opposed vupper yokes having :spaced vertical openings-therein andattachedztothesaid platef ulcrum, spaced `tension rrodsjxedly .mounts ed `iin :the said openings land suspended Virorn. the said :upper yoke on -each iside of the extension lever, and lower yokes likewise provided with spaced vertical Vopenings in which @the slower ends of the `tension `-rods ;are :adiustably mounted, 'and upstanding elongated :members integral with :the said ylower 4yokes lto which the `lower iplate-fiul crums 'fare attached -and vdisposed at :right :angles to E.the -upper fplat-e-fulcrum, 'the lower plate-.fulcrums being Aalso attached to the tips -of .the mai-n levers.

:12. In 1.a scale vof .the class .described, the combination 1withcorn-plernen'tar-y main levers, fof fan extension :lever :adapted to be operated thereby, and :means for l,transmitting load stresses :from the .said main ievers :to the said extension lever, including a transverse .plate-fulcrum monntedin the extension lever, 1a plurality of 'suspension rods suspended from-'the vsaid .plate-:fulcrum -`and :having adjustable means mounted Aon the-said .suspension lrods andfulcrnrned i by a platesfulcrum to the main levers. f

3,. Jin adevice A of the classiiescribedythercombinationwith complementary main levers, o'fflonvgitndinal :extension levers .adapted to *be operated thereby, 4a transverse iextension lever, means for transmitting lloa'd stresses from the :said longitudinal .levers 'to the ,said transverse lever, including an upper bearing block resilientlyimounted in an opening Ain the-butt end fof the :said transverse .-lever, and tension rods ldepending through vthe-said opening from the said upper bearing block and vcarryir-ig spacedtlower *bearingy blocks, .the said tension -rods beingpivota1ly1con` bination ywith complementary main levers, of longitudinal 'extension levers adapted to be operated thereby,'a transverse extension lever, means for transmitting load stresses from the said 1on- Agitudinal levers tothe said transverse lever, in-

cluding an `upper bearing block' mounted in an opening inlthe'butt end of the said transverse lfulcruin mounted in each of the said upper and lower bearing blocks, and an adjustable member attached tothe end vof each longitudinal extension leverand having xed thereto the platefulcrum supported by each of the lower bearing blocks.

5. In a device of the class described, the combination with 'complementary main levers, of longitudinal extension levers adapted to be operated thereby, a transverse extension lever, means for transmitting load stresses from the said longitudinal levers to the said transverse lever, including an upper bearing block mounted in the saidl transverse' lever and tension rods depending from `the said upper bearing block and carrying spaced, lower bearing blocks, plate-fulcrum lever connections -carried by each upper and lower bearing block, the said tension rods beingpivotally mounted on the saidupper and lower bearing blocks, and means attached to the said lower bearing' blocks, forchecking movement ofthe said plate-fulcrum connections in a horizontal plane.- v

L6.*ln a deviceY of the class described, the combination "with complementary main levers, of longitudinal extension levers adapted to be operated thereby,a transverse extension lever, means for transmitting-load stresses from the said longitudinal. levers to the said transverse lever, including'anupper bearing block mounted in the said transverse lever, and tension rods depending from the said upper bearing block and carrying spaced, lower bearing blocks, plate-fulcrum lever connections carried by each upper and lower bearing block, the said tension rods being pivotally mounted on the said upper and lower bearing blocks, and adjustable means attached to the said lower bearing blocks, forchecking the movement of the. said plate-fulcrum connections' in a horizontal plane. k

. 7'. In aidevice of the class described, the com'- bination with complementary main levers, of longitudinal extension levers adapted to be operated thereby, an transverse extension lever, means for transmitting load stresses from the said longitudinal levers to the said transverse.

lever, including an upper bearing block mounted in the said transverse lever, and tension rods depending from theA said upper bearing block and carrying spaced, lowerbearing blocks, the said tension rods being-pivotally connected to the upper and lower bearing blocks and mounted transversely ofthe transverse lever, and a platefulcrum mounted in each of the said upper and lower bearing blocks, the lower plate-fulcrum being disposed at right'angles to the upper platefulcrum. A'

- 8. In a device of the Vclass described, the combination with main levers, extension levers and a transverse lever, of plate-fulcrum connections between the .said main, extension and transverse levers, and means for checking the said plate- Vfulcrum vconnections between the extension and va platen member Vtransverse levers, including a platen member and -a stay-plate adaptedfto be movable relative to each other.

9. In a ldevice of the class described, the combination with main levers, extension levers and a transverse lever, of plate-fulcrum connections between the said main, extension and transverse levers, and means for checking the said transverse lever plate-fulcrum connections, including carried by said connections and a stay-plate xed against movement in a horizontal plane, the said platen member-being adjustable relative to the said stay-plate. l

l0. In a device of the class described, the combination with main levers, extension levers and a transverse lever, of plate-fulcrum connections between the said main, extensionv and transverse levers, and means for checking the said transverse lever plate-fulcrum connections, includ-ing a platen member carried by said connections and a xedly mounted stay-plate adapted to be restrained against movement in a horizontal plane, the said platen member being adjustable relative to the said stay-plate.

11( In a device of the class described, the combination with main'levers', extension levers and a transverse levergand fulcrum stands for the said levers, of plate-iulcrum connections between the saidmain, extension and transverse levers, and means for checking the said plate-fulcrum transverse lever connections, including a platen member having'a projection thereon carried by the said connections and a flexible stay-plate xed to one of the said vfulcrum stands, the said stay-plate having means thereon adapted to cooperate with the said projection.V i Y 12. Ina device of the class described, the combination with main levers, extension levers and a transverse lever, and fulcrum stands for the said levers, of plate-fulcrum connections between the said main, extension and transverse levers, and means` for checking the said plate-fulcrum transverse lever connections, including a platen member having a projection thereon carried by the said connections, a holding member having a lgroove therein adapted to co-operate with the said projection, a'stay-plate attached to the said holding member, the said holding member and stay-plate having slots therein and bolts extending through the slots and into the said projection for adjustably` retaining the holding member against the said platen member.

13. In a device of the class described, the combination with main levers, extension levers and a transverse lever, of plate-fulcrum connections between the said extension levers and transverse lever, and means for checking the plate-fulcrum extension and transplaten memberl and a between the said extension levers and transverse lever, and means for checking the plate-fulcrum connections between the extension and transverse levers, including a platen member carried by the said connections and a stay-platev held against movement in a horizontal plane, the said platen member being adjustable relative to theV said stay-plate.

15. In a device of the class described, the combinationwith main levers, extension levers :and

movable relative to each l a transverse lever, and fulcrum stands for the said levers, of plate-ulcrum connections between the said extension levers and transverse lever, and means for checking the plate-fulcrum connections between the extension and transverse levers, including a platen member carried by the said connections and a flexible stay-plate having one end fixed to one of the said fulcrum stands and the other end adjustably secured to the stayplate, whereby the platen member may be adjusted longitudinally.

16. In a device of the class described, the combination with main levers, extension levers and a transverse lever, and fulcrum stands for the said levers, of plate-fulcrum connections between the said extension levers and transverse lever, and means for checking the plate-fulcrum connections between the extension and transverse levers, including a platen member having a projection thereon carried by the said connections, and a ilexible stay-plate xed to one of the said fulcrum stands, the said stay-plate having means thereon adapted to co-operate with the said projection.

1'7. In a device of the class described, the combination with main levers, extension levers and a transverse lever, and fulcrum stand for the said levers, of plate-fulcrum connections between the said extension levers and transverse lever, and means for checking the plate-fulcrum connections between the extension and transverse levers, including a platen member having a projection thereon carried by the said connections, a holding member having a groove therein adapted to co-operate with the said projection, and a stayplate attached to the said holding member, the said holding member and stay-plate having slots therein and bolts extending through the said slots and into the projection for adjustably retaining the said holding member in position against the platen member.

18. In a device of the class described, the combination with complementary main levers, of longitudinal extension levers adapted to be operated thereby, a transverse extension lever, and means for transmitting load stresses from the said longitudinal levers to the said transverse lever, including an upper bearing block mounted on the said transverse lever, and tension rods depending from the said upper bearing block and carrying spaced lower bearing blocks, the said tension rods being pivotally mounted on the said upper and lower bearing blocks transversely of the transverse lever, a platen member supporting the lower bearing blocks and carrying a stay-plate holding member, and a stay-plate attached to the said stay-plate holding member.

19. In a device of the class described, the combination with complementary main levers, of longitudinal extension levers adapted to be operated thereby, a transverse extension lever, and means for transmitting load stresses from the said longitudinal levers to the said transverse lever, including an upper bearing block mounted on the said transverse lever, and tension rods depending from the said upper bearing block and carrying spaced lower bearing blocks, the said tension rods being pivotally mounted on the said upper and lower bearing blocks and transversely of the transverse lever, a platen member supporting the lower bearing blocks and carrying a stay-plate holding member, and an adjustable stay-plate detachably mounted on the said stay-plate holding member.

20. In a device of the class described, the combination with complementary main levers, of longitudinal extension levers adapted to be operated thereby, a transverse extension lever, and means for transmitting load stresses from the said longitudinal levers to the said transverse lever, including an upper bearing block mounted on the said transverse lever, and tension rods depending from the said upper bearing block and carrying spaced lower bearing blocks, the said tension rods being pivotally mounted on the said upper and lower bearing blocks and transversely of the transverse levers, a platen member supporting the lower bearing blocks and carrying a stayplate holding member, and an adjustable stayplate detachably mounted on the said stay-plate holding member and having its free end xed.

ALFRED BOUSFIELD. 

